EP4248810A1 - Module de recirculation du liquide de badigeonnage pour une rotisserie verticale - Google Patents

Module de recirculation du liquide de badigeonnage pour une rotisserie verticale Download PDF

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Publication number
EP4248810A1
EP4248810A1 EP22162251.7A EP22162251A EP4248810A1 EP 4248810 A1 EP4248810 A1 EP 4248810A1 EP 22162251 A EP22162251 A EP 22162251A EP 4248810 A1 EP4248810 A1 EP 4248810A1
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EP
European Patent Office
Prior art keywords
liquid
recipient
recirculation module
pivoting
reservoir
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Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Pending
Application number
EP22162251.7A
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German (de)
English (en)
Inventor
Paul Vandamme
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Individual
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Individual
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Publication date
Application filed by Individual filed Critical Individual
Priority to EP22162251.7A priority Critical patent/EP4248810A1/fr
Publication of EP4248810A1 publication Critical patent/EP4248810A1/fr
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    • AHUMAN NECESSITIES
    • A47FURNITURE; DOMESTIC ARTICLES OR APPLIANCES; COFFEE MILLS; SPICE MILLS; SUCTION CLEANERS IN GENERAL
    • A47JKITCHEN EQUIPMENT; COFFEE MILLS; SPICE MILLS; APPARATUS FOR MAKING BEVERAGES
    • A47J37/00Baking; Roasting; Grilling; Frying
    • A47J37/10Frying pans, e.g. frying pans with integrated lids or basting devices
    • A47J37/106Integrated basting devices
    • AHUMAN NECESSITIES
    • A47FURNITURE; DOMESTIC ARTICLES OR APPLIANCES; COFFEE MILLS; SPICE MILLS; SUCTION CLEANERS IN GENERAL
    • A47JKITCHEN EQUIPMENT; COFFEE MILLS; SPICE MILLS; APPARATUS FOR MAKING BEVERAGES
    • A47J37/00Baking; Roasting; Grilling; Frying
    • A47J37/04Roasting apparatus with movably-mounted food supports or with movable heating implements; Spits
    • A47J37/041Roasting apparatus with movably-mounted food supports or with movable heating implements; Spits with food supports rotating about a horizontal axis

Definitions

  • the invention refers to a basting liquid recirculation/ recirculating module for an adopted vertical rotisserie unit with which it forms a vertical rotisserie machine using a flavouring liquid and tenderizing / dripping of a liquid on grilling products, such as simple vegetable comestible oil or oil flavoured with powder made of milled flavouring herbs for increasing the taste of meat and/or vegetables during the products cooking process (roasting or baking).
  • a basting liquid recirculation/ recirculating module for an adopted vertical rotisserie unit with which it forms a vertical rotisserie machine using a flavouring liquid and tenderizing / dripping of a liquid on grilling products, such as simple vegetable comestible oil or oil flavoured with powder made of milled flavouring herbs for increasing the taste of meat and/or vegetables during the products cooking process (roasting or baking).
  • the vertical rotisserie machine having a basting liquid recirculation module according to invention is intended for being used in food industry especially within the catering field, as kitchen
  • a rotisserie oven comprising a central heating section having a vertical orientation and dividing the cooking space into two equal, independent, and evenly heated roasting chamber; at least two rotisserie roads each driven by a motor; at least two removable basting troughs positioned above the rotisserie roads; at least two drip collection pans positioned below the rotisserie rods; an ash drawer positioned below the central heating section; and a control panel.
  • the excess basting liquid and the meat juices is collected in a drip cup and can easily be recycled during the roasting process.
  • a pump can be installed outside of the drip cup for automated recycling of the liquid into the basting through.
  • the description does not present an embodiment of this variant of invention using a pump for recirculating the basting liquid.
  • the recirculation of the basting liquid using a pump involves the fulfilment of some special requirements, taking into consideration the characteristics of this liquid (for example, viscosity and composition).
  • the passing of the basting liquid through the pump body involves the execution of some special pumps, made of materials permitted in food industry and hygiene conditions; the same, as regards the liquid pumping circuit.
  • the pumps in general, are difficult to maintain by unspecialized staff, as the pumped liquid gets into contact with the inner parts of the pump and vice-versa, contaminating the pump and the liquid, making harder the pump maintenance.
  • an invention relates to a vertical rotisserie apparatus/machine with liquid pouring for basting, comprising an improved rotisserie unit equipped with means for pouring of a basting/ aromatizing liquid, and a liquid recirculation module attached to the left or the right side of the rotisserie unit.
  • the vertical rotisserie machine has in general a parallelepiped shape having a support base mounted on wheels, being equipped with several horizontal spikes or baskets, vertically staggered, for fixing the foodstuff to be roasted, each spike being driven in rotational motion, being closed with two glass doors;
  • the module for recirculating basting liquid using a roller chains transport mechanism is large and for the periodical sanitation of the liquid transportation container and homogenizer, they must be disassembled from the transport mechanism.
  • the technical problem solved by the invention consists in the recirculation, of a liquid used, in a vertical rotisserie machine, for basting rotisserie products by means of pouring, by pumping the basting liquid, said liquid having a controlled liquidity and being previously homogenized.
  • Another object of the invention is ensuring that a constant amount of basting liquid at once is poured over the grill content, regardless of the viscosity of the basting liquid or pump capacity of the pump, ensuring at the same time, a uniform distribution of the basting liquid over the products to be roasted placed along the entire length of the spikes;
  • Further object of invention is to use peristaltic pump to ease pump maintenance by non-technical personnel, as the liquid to be pumped never comes into direct contact with the inner parts of the pump.
  • Further object of invention is to detect hose rupture or crack within the pump area more specific in the pump chamber of the pumping circuit as the pressing action exerted by the rollers or lobes of the pump's rotor on the hose portion within the chamber of the peristaltic pump stresses this section, eventually leading to its rupture and leakage of liquids that happens in areas that are not always visible for the operator during the normal operation of the rotisserie machine.
  • Another objective of the invention is to provide the possibility of self-cleaning the pumping circuit.
  • the basting liquid recirculation module for vertical rotisserie unit (shortly: liquid recirculation module/ recirculation module) for a vertical rotisserie machine/ the Vertical rotisserie machine with module for recirculation of a basting liquid according to the invention is defined by its characteristics highlighted in claims 1-15.
  • a liquid recirculation module 100 of a basting liquid for a vertical rotisserie unit 200, (together making the vertical rotisserie machine represented in fig.2 ), adapted by equipping its upper part, above the highest spike/sword 43 with products to be roasted, with a liquid distributor 7, being supplied with liquid, so as to pour at certain time intervals, corresponding to culinary recipes of the preparations, liquid on the products to be roasted placed along the entire length of the spike/sword 43; at the bottom part, beneath the lowest spike/sword 43 with products to be roasted, the adapted vertical rotisserie unit 200 is equipped with a removable liquid collector 9 for collecting the liquid falling from the roasted products.
  • the adapted vertical rotisserie unit 200 is equipped with gas burners or electric heaters 244 and radiators 245.
  • the distributor 7 of the vertical rotisserie unit 200 is located beneath a thermal heat chamber 62 intended to store some boxes 61 of the heat chamber for heating and cooking meat and vegetables.
  • the liquid recirculation module 100 of the flavouring and tenderizing liquid consists in a wheeled bottom part 100a, equipped with a support plate 60a, on two pairs of wheels 58, 65 (see Fig. 2 ) for moving the recirculation module 100, an upper part 100b, in this embodiment, both in the general shape of parallelepiped-rectangular boxes, and a central part 100c, in this embodiment, in the form of a column also parallelepiped-rectangular, with a narrower base, located between bottom part 100a and upper part 100b, the central part joining the right-rear corners of the bottom and upper part, the three parts having a common reinforced back panel 60c, mounted on support plate 60a of the bottom part and having side walls coming into contact with the rotisserie unit in the same plane, so that the recirculating unit 100 could be attached to the adapted vertical rotisserie unit 200.
  • the recirculating unit 100 from its side view, has the shape of a digitized C letter.
  • liquid recirculation module 100 In one version of the liquid recirculation module 100, it cannot be wheeled, when being attached and supported as a door on its hinges (here not shown) connecting the liquid recirculation module 100 with the grill unit 200. In that case the support wheels 58, 65 are no longer mandatory on the support plate 60a.
  • the liquid recirculation module 100 is intended to be attached to a vertical rotisserie unit 200, as indicated in fig. 2 , taking over the basting liquid from liquid collector 9 and transporting it to distributor 7.
  • the basting liquid recirculation module 100 illustrated in fig.1A and fig.1B contains: in the lower part 100a, a drawer 68 without bottom plate, slidable via a pair of telescopic slider arms 113, 114 being supported in the slider supports 112 mounted mechanically on lateral panels 82, 82' and support plate 60a, is equipped with a plastic handle 69, said drawer 68 containing a liquid reservoir 5, having the form of an elongated rectangular box, and being equipped with a liquid homogenization assembly 70 (see Fig.5 ), both of them preferably being removable.
  • the reservoir 5 being initially filled with basting liquid, and during the cooking by draining the liquid from the liquid collector 9 in it through a pipe or a sliding gutter 12 ( fig.2 ), which pass through a rectangular/ corresponding hole provided in the lateral panel of the vertical rotisserie unit 200, said pipe being inclined towards the removable liquid reservoir 5 sitting on a heated plate 67; said liquid reservoir 5 being provided with two side handles 103 for easy handling.
  • a removable/detachable pivotable/tiltable liquid recipient 10 (hereinafter, pivoting recipient/ upper pivoting recipient) from which the liquid is poured into a top gutter 30 (illustrated in fig. 8 ), by whose means it flows into distributor 7 located in the vertical rotisserie unit 200 ( fig.2 ).
  • central part 100c are located means for transporting the liquid via a liquid pumping circuit, containing a peristaltic pump 6, for instance a rotative/rotary peristaltic pump with electric motor 3, a pump pipe assembly 80 (illustrated in fig. 7 ), including a hose 88 of peristaltic pump 6, making the connection between removable liquid reservoir 5 and tiltable recipient 10, preferable removable, for transferring the liquid; said means of transporting being also provided with a tube insertion mechanism 90 for inserting or removing a mobile pipe 89 of the pump pipe assembly 80 in/from reservoir 5, depending on the closed or open position of the drawer 68, respectively.
  • a peristaltic pump 6 for instance a rotative/rotary peristaltic pump with electric motor 3
  • a pump pipe assembly 80 illustrated in fig. 7
  • said means of transporting being also provided with a tube insertion mechanism 90 for inserting or removing a mobile pipe 89 of the pump pipe assembly 80 in/from reservoir 5, depending on the closed or open position of the drawer 68, respectively.
  • the removable top gutter 30 is passing through two corresponding slits from the adjacent side walls of the upper part 100b and of the adapted vertical rotisserie unit 200, being placed to rest on the distributor 7.
  • the pivoting recipient 10 is tilting around a pivot axle 98, for immediate transfer of the entire quantity of pumped liquid, until the moment of tipping, into the removable top gutter 30, which conducts this liquid quantity into distributor 7, thus ensuring the necessary liquid quantity in said distributor 7, so that it evenly pours liquid on the products to be roasted along the entire length of spikes 43.
  • the time interval between two consecutive tipping moments of the pivoting recipient 10 depends to the flow rate of the peristaltic pump 4 and the volume of liquid required for the distributor 7, each tilting moment being determined by the liquid level in the pivoting recipient 10.
  • the pivoting recipient 10 has the longitudinal axis perpendicular to a longitudinal axis of the top gutter 30.
  • An action bar assembly 40 is located also in the central part 100c, driving the liquid homogenization assembly 70 for homogenizing the liquid present in removable liquid reservoir 5 and a tiltable liquid recipient 10, for the purpose of transferring liquid to the top gutter 30.
  • a command and control system of the operating conditions of recirculation module 100 which uses sensors to check the work position of drawer 68, pivoting recipient 10 and removable top gutter 30, as well as the liquid level in removable liquid reservoir 5 and pivoting liquid recipient 10, ordering the operation of peristaltic pump 6 and action bar assembly 40.
  • the basting liquid recirculation module 100 further contains: means for detecting a rupture or crack at the hose of the peristaltic pump (hereinafter, hose rupture detecting means) in the two variants 50, 50' ( fig. 6A and fig. 6B ).
  • hose rupture detecting means means for detecting a rupture or crack at the hose of the peristaltic pump in the two variants 50, 50' ( fig. 6A and fig. 6B ).
  • the command and control system ensures the working conditions both in normal operation and in washing mode.
  • the basting liquid recirculation module 100 can have, in addition to the normal operating mode, a washing mode.
  • the liquid recirculation module 100 according to invention, further contains a drainpipe circuit for the purpose of cleaning the pipe assembly 80 of the pump circuit within the liquid recirculation module 100.
  • the drainpipe circuit comprises a wash liquid collector and transfer tray 15, located, as pivoting recipient 10 is removed, under said outlet 83 of said pump pipe assembly 80, a drain hose 18 mounted in quasi vertical position, and a short drainpipe 17 with vertical orientation.
  • the drainpipe 17 is mechanically mounted by means of a support 22 to the reinforced back panel 60c of the recirculation module 100 and has an outlet 17a for wash liquid at its bottom end located, when the drawer 68 is closed, above the liquid container 5 and a frustoconical fitting 17b at its upper end, to be firmly attached to lower end 18b of the drain hose 18.
  • the upper end of said drain hose 18 is connected to an outlet pipe 15b of the said wash liquid collector and transfer tray 15.
  • a front panel 59 in the upper part 100b, a front panel 59, a side door 157 for access to tiltable liquid recipient 10, wash liquid collector and transfer tray 15 (a kind of liquid funnel), and a removable top gutter 30, the panel 158 opposite to door 157 being provided with an orifice 158b (see fig. 13 ) through which (when door is closed) the top gutter 30 passes towards the vertical roaster 200, and a cover plate 60f equipped with fastening clamps 28 for attaching module 100 to the adapted vertical rotisserie unit 200 (see also fig.
  • the top gutter 30 exits the recirculation module 100 to enter, through an identical/similar cut-out from the adjacent panel to the panel 158, of the adapted vertical rotisserie unit 200, into the vertical rotisserie unit 200, where it rests on the distributor 7.
  • a frontal panel 156 having in the upper part a human-machine interface HMI with touch screen 63, a door 155 made of Plexiglas or glass, for access to the compartment of peristaltic pump 6, completed, in the upper part, with a right side panel 84, the reinforced back panel 60c, common to the entire module 100 being mounted on the support plate 60a, preferable located on the two pairs of wheels 58, 65 for moving the recirculation module 100;
  • the bottom part 100a additionally containing two lateral panels 82, 82' and upper cover 60b ( fig.1B ), supporting two removable, funnel-type, intermediary gutters 25, 26, which, when drawer 68 (here shown with liquid homogenization assembly 70 positioned in it) is closed, have their outlets above reservoir 5.
  • the drawer 68 can be manual or electronic driven.
  • a hose rupture detecting means 50 for more details, see Fig. 6A
  • a single guide pipe 143 to guide the hose 88 towards the peristaltic pump 6 chamber
  • the liquid recirculation unit is equipped with a variant of hose rupture detection means 50' (for more details, see fig. 6B ), with two drip-enforcer guide pipes 144, 144' for hose and one hose guide pipe 141.
  • Fig 1B are also highlighted the components of the command and control system of operation conditions of basting liquid recirculation module 100, containing some position and level sensors, which shall be presented in the following paragraphs, some circuit breakers and relays 109, located on the support of the circuit breakers and relays 110, a power sources 111, which in a described embodiment is a DC electrical power supply source mounted on a support plate 140 being attached to a reinforced back wall 60c.
  • some circuit breakers and relays 109 located on the support of the circuit breakers and relays 110
  • a power sources 111 which in a described embodiment is a DC electrical power supply source mounted on a support plate 140 being attached to a reinforced back wall 60c.
  • Operation commands for the basting liquid recirculation module 100 are given by an operator using the touch screen 63 and on/off button 64, located on the front door panel 156 ( fig. 1A , 1C and fig. 2 ), via the human-machine interface HMI implementing the command and control system.
  • Fig. 1C is a schematic representation of another embodiment of the liquid recirculation module 100' which has the general form of a rectangular parallelepiped, having a bottom part on wheels 100'a (which is very similar/identical to part 100a), equipped with a support plate 60a, on two pairs of wheels 58, 65 (the other side pair of wheels 65 is shown in Fig. 2 ) for moving the recirculation module 100', an upper part 100'b, and a central part 100'c.
  • the basting liquid recirculation module 100' can have, in addition to the normal operating mode, a washing mode.
  • said central part 100'c is compartmentalized/divided by a reinforced middle panel 60d in a front part, which communicates directly (without partitions) with the upper part 100'b and the lower part 100'a.
  • Central part 100'c has in its front part a wash liquid drain circuit consisting of a wash liquid collector and transfer tray 15, an elongated quasi vertical orientated drain tube 151 for guiding, in the washing mode, (where the basting liquid is replaced with a wash/cleaning liquid, like dishwashing liquid) from the pump pipe assembly 80, after the cleaning liquid has passed through the pump pipe assembly 80, back to the container 5.
  • the back part of the said central part 100'c mainly comprises: means of transporting liquid, a simplified action bar assembly 40' ( fig.3B ) driving solely the liquid homogenization assembly 70 from reservoir 5, and a command-and-control system of the operation condition of recirculating module 100'.
  • the means of transporting liquid comprise a liquid pumping circuit, containing a rotative peristaltic pump 6 with electric motor 3 and a pump pipe assembly 80 including the hose 88 of peristaltic pump 6.
  • Said peristaltic pump has a volumetric flow that ensures the required liquid supply in the distributor 7 so that it pours liquid on all the rotisserie products strung along the entire length of the spikes 43.
  • peristaltic pump has a volumetric flow rate between 6 and 10 times the gravitational drain rate of the distributor 7.
  • the means of transporting for the liquid mentioned above makes the direct connection between the removable reservoir 5 and the top gutter 30', which leads the liquid into the distributor 7.
  • the peristaltic pump 6 has a flow rate sufficient to supply the distributor 7 directly, consequently, the pivoting recipient 10, with the role of accumulating and transferring the liquid from a peristaltic pump 6 with a lower flow rate to distributor 7, is no longer being necessary.
  • a 156' front panel having at the top the touch screen 63 of the human-machine interface (HMI) and in the bottom part a Plexiglas/glass door 155', for easy access to pump chamber 6 and hose rupture detection means 50', a left lateral panel 159 equipped with a cavity 159a used for inserting gutter pipe 12, for draining the liquid from liquid collector 9 into reservoir 5.
  • the frontal part of the central part 100'c of the basting recirculation module 100' communicates both with the upper part 100'b as well as with the bottom part 100'a, so that the cover 60b is no longer necessary.
  • the other panels forming the casing/housing of the recirculation module 100' are common with the ones of the module 100, noting that at the upper part 100'b, the panel 158 opposite to door 157 is provided with an orifice (here not seen) through which the elongated bottom plate 29 of the top gutter 30 ( fig. 8 ) exits towards the distributer 7 being positioned in the vertical rotisserie unit 200.
  • the action bar assembly 40' (see Fig. 3B ), is located also in the central part, 100'c, driving only the liquid homogenization assembly 70 for the purpose of liquid homogenization for the liquid present in reservoir 5.
  • the liquid container 5 is filed with a washing liquid instead of basting liquid, said top gutter 30' being removed and having the liquid homogenization assembly 70 in the lower position in reservoir 5.
  • the liquid recirculation module 100' further comprises a drain pipe circuit comprising a wash liquid collector and transfer tray 15 located under said (liquid receiving chamber 32 of the top gutter 30' to collect wash/cleaning liquid from the) outlet 83 of said pump pipe assembly 80, as said top gutter 30' being removed and an elongated quasi vertical orientated (10-20 degrees) drain tube 151 being mechanically mounted by means of a support 22' to the reinforced middle panel 60d of the recirculation module 100', for guiding the wash/cleaning liquid from the pump pipe assembly 80, after the cleaning liquid has passed through the pump pipe assembly 80, back to the container 5 so that the washing liquid flows (leaks) down on the walls of the drain tube 151 located in said front part of the central part 100'c, said drain tube 151 having its upper end connected to an outlet pipe 15b of the said wash liquid collector and transfer tray 15 and having its lower end above the liquid container 5.
  • the command-and-control system is implemented for the operating conditions of the recirculation module 100', which checks by means of sensors the check the working position of the drawer 68, and of the top gutter 30', as well as the liquid level in reservoir 5, ordering the operation of the peristaltic pump 6 and the action bar assembly 40'.
  • the command and control system ensures the working conditions both in normal operation and in washing mode.
  • the central part 100'c has a general parallelepiped-rectangular form, with the same dimensions of the base as bottom part 100'a and upper part 100'b of the liquid recirculation module 100' and being located between them, said three parts of the liquid recirculation module 100' having a common reinforced back panel 60c on which said action bar assembly 40' is mounted, said back panel 60c being mounted on the support plate 60a of the bottom part 100'a, so that the entire recirculation module 100' has the shape of a parallelepiped-rectangular column.
  • the recirculation module 100' is also intended for being attached to a vertical adapted rotisserie unit 200, the cover 60f being also equipped with fastening clamps 28 (as presented in fig. 1C and fig. 2 ).
  • a right lateral panel 159 of the recirculation module is provided with a passing rectangular hole 159a in the lower part through which the pipe or sliding gutter 12 coming from the removable liquid collector 9 from adapted vertical rotisserie unit 200; through passing rectangular hole 159a in the lower part of the left lateral panel of the module 100', the pipe 12 gets above reservoir 5;
  • the left side panel 158 of the basting recirculation module 100' adjacent to adapted vertical rotisserie 200 is provided with a cut-out by whose means, the elongated bottom plate 29 of the top gutter 30' exits the recirculation module 100' to enter, through an identical cut-out from the adjacent panel of the adapted vertical
  • the action bar assembly 40 for driving the liquid homogenization assembly 70 in reservoir 5 and, in the first embodiment of the liquid recirculation module 100, tilting the removable liquid recipient 10.
  • the action bar assembly 40 comprising an action bar 45, for instance a bended metal bar having three sections, two parallel aligned vertical orientated sections 39, 51 (further referred to as the lower action bar 39 and the upper action bar 51), and one horizontal section 47 (further referred to as the drive strip 47) which is fixed at the end of the slide tube 49 of a linear actuator 96.
  • the linear actuator 96 is a mechanical linear actuators typically operate by conversion of rotary motion of a DC motor into linear motion using a screw mechanism.
  • the upper action bar 39 is provided at its upper end with a plastic wheel 37 (i.e. Teflon), for actuating tiltable liquid recipient 10, with which it comes into mechanical contact, without shock and with reduced friction; and a lower action bar 51 is provided at its lower end with a strip 55 in form of an elbow a strip/plate for driving the liquid homogenization assembly 70.
  • the strip 55 is provided with a slot 55a to couple to/engage with homogenization assembly.
  • the linear actuator 96 is parallelly aligned with the reinforced back panel 60c (dotted line) of the recirculation module 100, 100', its bottom end being fixed, by means of a mechanical support 52 on the reinforced back panel 60c, while the slide tube 49 of actuator 96 is vertically positioned, its exterior end being mechanically fixed to the drive strip 47 of the action bar 45, 45'.
  • the linear actuator 96 is equipped with an DC electrical motor, powered for example at 12 or 24V, capable of changing the rotational sense, and moving the action bar 45 up- and downwards with a restricted adjustable stroke (a custom stroke length), as to be suitable to properly operate the homogenization assembly 70 and tiltable liquid recipient 10. In this way, the action bar 45 can move upwards and downwards, if driven by the slide tube 49 of the linear actuator 96.
  • an DC electrical motor powered for example at 12 or 24V, capable of changing the rotational sense, and moving the action bar 45 up- and downwards with a restricted adjustable stroke (a custom stroke length), as to be suitable to properly operate the homogenization assembly 70 and tiltable liquid recipient 10.
  • a restricted adjustable stroke a custom stroke length
  • Fig. 3B presents another variant of the action bar assembly 40' corresponding to the second example (simplified version) of the basting recirculation module 100' illustrated in fig. 1C .
  • the upper action bar 39 for its driving, together with the corresponding elements: wheel 37, and supports 38 for guiding and positioning the upper action bar 39 isn't necessary.
  • the pivoting recipient 10 is located in the upper part of the liquid recirculation module 100, preferable detachable. It has the form of an elongated rectangular box, opened both at upper part as well as in the front - towards the top gutter 30, in which the basting liquid is poured, the two side walls 131, 131' having rounded front ends, the base plate 137 of the pivoting recipient 10 continues with an inclined extension lip 133, which avoids dripping during the process of pouring the flavouring and tenderizing liquid from the pivoting recipient 10 into the inlet chamber 32 of the removable top gutter 30.
  • Each of two side walls 131, 131' has towards the frontal end, a circular hole 120, 120' having the centres on the pivot axis, said holes being provided with a slit for passing a locking pin 93 fixed on the pivot axle 98, to allow the pivoting recipient 10 to tilt on the axle 98.
  • the pivot axle 98 is equipped, at its free end, with a locking pin 93, and the mentioned axle 98 has at the end opposite to locking pin 93 a cylindrical extension 152 with guidance role, fastened in a reinforced lateral plate 94, mechanically fixed perpendicularly to the reinforced rear panel 60c, in the upper part 100b of the liquid recirculation module 100.
  • a guide ring 121 ensures that the pivot axle 98 is positioned and held perpendicular to the rear panel 60c of the recirculating unit 100, when fixed in the liquid recirculation module 100, said pivoting recipient 10, also removable, being able to slide along the pivot axle 98 until a lateral wall 131 of the pivoting recipient 10 being blocked by a sliding stroke limiter 99 fixed to/ located on the pivot axle 98.
  • the pivoting recipient 10 is provided with a separation wall 11, positioned between the two lateral walls 131 and 131' of the pivoting recipient 10, perpendicular to them, being aligned parallel to the back wall 23 of the pivoting recipient 10 or, preferably, inclined between 5 and 25 degrees from the vertical towards back wall 23.
  • the distance between separation wall 11 and back wall 23 is about one third of the total length of the base plate 137 of pivoting recipient 10, said separation wall 11 not touching the inside of the base plate 137, divides the pivoting recipient 10 into two communicating liquid compartments:
  • the detachable liquid recipient 10 could also be provided with an outer lip of the pivoting recipient 10 (not shown) being foreseen on one of the side walls 131, 131' or 23, and is being parallelly aligned with the bottom plate 137 of the said recipient 10 such to rest on wheel 37 of the upper action bar 39 for driving and tilting it towards the top gutter 30.
  • the action bar assembly 40 or 40' is said to be in its default position when the slide tube 49 has reached its fully retracted length.
  • the recirculation module 100, 100' always starts a recirculation cycle from this default position.
  • peristaltic pump 6 when peristaltic pump 6 is activated, then it transfers the liquid from pivoting recipient 10 through pipes 85, 89 and hose 88 from the pump pipe assembly 80 and falls, through outlet 83, in the supply and discharge compartment, where the process of filling the liquid level reading compartment in the pivoting recipient 10 begins.
  • the liquid from the reading compartment will move, through the gap between the separation wall 11 and base plate 137 of tiltable liquid recipient 10, into the compartment for liquid supply and discharge, and from there, the liquid will start to spill over lip 133 into liquid receiving chamber 32 of the top gutter 30; when the base plate 137 of the container forms an angle ⁇ , the pivoting actions resulting from the upwards movement of the slide tube 49 will move the liquid pumped in tiltable liquid recipient 10, into the liquid receiving chamber 32 of the top gutter 30 and from here, flowing on the elongated bottom plate 29 and lip 133, the basting liquid gets transferred into distributor 7.
  • an electronic control reverses the rotation direction of motor 3 of peristaltic pump 6 ( Fig. 1B ), for example by reversing the polarity of the supply voltage, and couples the pump to begin emptying the pipes 85, 89 and hose 88; after a pre-set time interval, for example 10 seconds, again by electronic control, the polarity of the supply voltage of motor 3 is reversed, but the motor is no longer engaged.
  • the angle ⁇ for positioning or removing the pivoting recipient 10 from the pivot axle 98 is between 15 and 25 degrees, preferably 15 till 18 degrees, and greater than the tilt angle ⁇ , both measured relative to level line L-L' passing through pivoting recipient 10 in default position.
  • the liquid homogenization assembly 70 together with the pivoting recipient 10 are always simultaneously engaged by the action bar 45, this regardless of whether the pump 6 for vertical liquid transport is engaged or not.
  • the action bar assembly 40' only the liquid homogenization assembly 70 is engaged by the action bar 45'.
  • Fig. 5 where is illustrated the liquid homogenization assembly 70 from the liquid reservoir 5, which is a detachable one in this embodiment, comprises: a plate 71, having a rectangular shape, similar to the bottom plate of the liquid reservoir 5 but smaller dimensions so that it may be immersed in reservoir 5.
  • the plate 71 is equipped also with a round cutting 71b having the diameter twice the outer diameter of the movable pipe 89, said cutting being used for inserting/extracting the bottom end 89a of the movable pipe 89, in/from reservoir 5.
  • An axis 79 is fixed at one end of the homogenizer plate 71, in two ears 74 thereof, on which the plate 71 can pivot when this axle 79 is articulated in a support 118 of the pivot axis, fixed on the lower plate 117 of the reservoir 5 (see fig. 9 ).
  • a flat drive arm 72 perpendicular to the homogenizer 71 plate, is mounted on homogenizer plate 71 at the opposite end to the axle 79.
  • the arm 72 ending with a flat finger 72a, through which the homogenization assembly 70 is connected to the action bar assembly 40 or 40'.
  • the homogenizer plate 71 has a rectangular form, being provided with:
  • basting liquid recirculation module 100 could be further provided with some rupture detection means 50 or 50' of the hose 88 on the segment 88' positioned inside the pump's chamber 4.
  • the mentioned rupture detection means 50, 50' is disclosed in two alternatives comprising: a guide 143 for instance a cylindrical pipe or two pipes 144, 144' for guiding and changing direction of the ends of the hose 88 before entering the chamber 4 of the peristaltic pump 6, the guide pipe(s) being positioned underneath the chamber of the peristaltic pump is/are equipped with means intended to ensure that the hose 88 does not slide from the guide pipe(s); an inclined hose rupture detection gutter 95 for detecting rupture of the hose 88 in the portion 88' of the pump's chamber 4, as the surface of the mentioned gutter 95 covers the area located underneath the peristaltic pump 6, for collecting the liquid loss, the length of the gutter 95 exceeds the distance between an orifice 27 corresponding to this gutter, located on a panel 156 of the front door
  • the drip-enforcer guide pipe 143 made from a material allowed in food industry, for example stainless steel, and positioned between 10 cm and 15 cm underneath the pump chamber 4, is a guiding device used for changing the direction of hose 88, by bending the ends of the hose, coming from the fixed pipe 85 and mobile pipe 99, located laterally on either side of the pump chamber 4, around the drip-enforcer guide pipe 143. In this way, the direction of the end of the hose located inside the pump chamber 6, relative to a vertical axis, because of their bending around the drip-enforcer guide pipe 143, goes up and down and up again.
  • a material allowed in food industry for example stainless steel
  • the drip pipe enforcer 143 is parallelly aligned with the reinforced back panel 60c of the recirculation module 100 and has one end mechanically fixed to a support plate 139 ( fig. 1A ) of the pump 6, while the other end is equipped with an elongated safety pin 145 facing downwards and having a length equal or greater than twice the outer diameter of hose 88 (in the concrete example, at least 4 cm), so as to ensure that the hose 88 is bent around the drip pipe enforcer 143 does not slip off it during operation of the recirculation module 100.
  • two drip-enforcer guide pipes 144, 144' have been used, horizontally aligned beneath pump chamber 4, 144 being the drip-enforcer guide pipe of the end of the hose coming from the fixed pipe 85, while 144' is the drip-enforcer guide pipe coming from the mobile pipe 89, the fixed pipe 85 and movable pipe 89, being located, this time above and underneath the pump chamber 4 of peristaltic pump 6.
  • the additional guide pipe 141 ensures that the hose 88, reaching the drip-enforcer guide pipe 144' (if bent around 144'), goes from bottom to upper part, just before the hose coming from pipe 89 enters chamber 4 of the pump 6.
  • the additional pipe 141 ensures that the hose 88, reaching the guide pipe 144', (when bent around it 144'), goes from the bottom up, just before the hose coming from the pipe 89 enters the chamber 4 of the pump 6.
  • the guide pipe 141 for guiding the hose 88 is equipped with a hose locking arm 97 having at one end a hook type cutting 134 to secure a protrusion 147 coming from the drip-enforcer guide pipe 144. Securing the hook type cutting 134 of the hose locking arm 97 over the protrusion 147 prevents the hose 88 from sliding from the guide pipes, fulfilling the function of the elongated safety pin 145 of the first embodiment.
  • the liquid leaking from the hose will directly fall from outlet 102 of the hose rupture detection gutter 95 into reservoir 5.
  • the hose connecting to the connections 87, 91 of the pump pipe assembly 80 is designed as such that the portion of the hose coming from the movable pipe 89 ( fig. 6B ) and enters the pump chamber 4 bends around the drip-enforcer guide pipe 144, so that the liquid flow from the portion of the hose reaching the drip-enforcer guide pipe 143 and coming from the movable pipe 89 is oriented downwards, measured relative to a vertical axis, while the portion of the hose touching the drip-enforcer guide pipe 143 and entering the pump chamber 4 is oriented upwards, measured relative to a vertical axis.
  • a stationary pipe 85 having a vertical orientation, consisting of several sections so to have the outlet 83 positioned above the pivoting recipient 10 and the bottom end - inlet 87 provided with hose connection means, above peristaltic pump 6 or one lateral side of it, a movable pipe 89 having, in normal operation situation, also a vertical orientation.
  • the upper end 91 of the movable pipe (outlet) is provided with hose connection means, being located underneath the peristaltic pump 6 or on its side opposite to that in which the lower end of the fixed pipe 85 is located, and the lower end 89a of the movable pipe being located in the liquid reservoir 5.
  • the movable pipe 89 is driven by an insertion mechanism 90 ( fig. 11A and fig. 11B ) for the purpose of inserting or extracting the lower end 89a of the movable pipe 89 from reservoir 5.
  • the bottom end 87 of the stationary pipe 85 is connected to the upper end 91 of the movable pipe 89 by means of the hose 88 specific to pumping circuits with peristaltic pumps having a section 88' lying inside of chamber 4 of the peristaltic pump 6, and the ends guided by the rupture detecting means 50, 50' for detecting of possible liquid losses due to rupture of hose 88 which may occur.
  • a top gutter 30 preferably detachable; it has an elongated rectangular shape, having at one end a liquid receiving chamber 32 formed between two side walls 146, 146', a rear wall 148 and a partial front wall 147 fixed on an elongated base plate 29 for draining purpose, ending in an outlet area 35 representing the other end of the top gutter 30, said partial front wall 147 having a bent portion 31 towards the outlet area 35, parallel to elongate bottom plate so that forming together the outlet 32' of said chamber 32, said elongated base plate 29 including outlet area 35 of the gutter 30 being provided with lateral liquid guiding edges 33, 33', each of said wall 146', 147, 148 of the liquid receiving chamber 32, which does not get into direct contact with the pivoting recipient 10 when tilting it, having a lip 149 at the upper part said lip being outwardly inclined to prevent liquid spilling during its transfer from the pivoting recipient 10 to the inlet of the liquid receiving chamber 32, and said rear wall 147 of the
  • top gutter 30' (not shown) the only difference being that all walls 146, 146', 147, 148 of the liquid receiving chamber 32 have a lip 149 at the upper part said lip being outwardly inclined to prevent liquid spilling during dropping from the outlet 83 of the pump pipe assembly 80 to the inlet of the liquid receiving chamber 32.
  • the fig. 11A and fig. 11B illustrate the mechanism of inserting/retracting the end of the liquid transport pipe 89 in/ from the liquid reservoir 5 of the embodiments of the invention disclosed in description.
  • the tube insertion mechanism 90 for the movable pipe 89 having the purpose of inserting or removing the mobile pipe 89 in/from reservoir 5 with liquid, is driven by the closing or opening of the drawer 68 in the lower part 100a/100'a holding the reservoir 5 comprises: a pivotable insertion arm 207 in a shape that can be associated with the letter V, having at on side/end 207a mounted the movable pipe 89, and the other side/end 207b being for driving the insertion mechanism 90' of the movable pipe 89, coming into contact with the rear wall 116 of the container 5 located in the drawer 68.
  • the insert arm 207 is pivotable relative to an axle 208 mounted on a vertical support plate 209 being fixed to the reinforced rear panel 64c.
  • a helical spring 125 is attached with the upper end 125a to the rear of the pivoting insert arm 207 and with the lower end 125b at a point located vertically passing through the pivot axis 208.
  • a washing liquid collector and transfer 15 It is a rectangular box, open at its top, having an inverted pyramidal bottom with flat top and cavity 15c, and a short pipe 15b welded on its bottom end centred over the cavity 15c.
  • the back wall 15a of wash liquid collector and transfer tray 15 has an extension to be mounted on the back plate 94 of the liquid recirculation module 100 ( fig. 1C ).
  • washing liquid collector and transfer 15 is located, under pivoting recipient 10 and in the washing mode as it is removed, under the outlet 83 of the pump pipe assembly 80 having the short pipe 15b in the upper end of the drain hose 18 (see Fig. 1B ).
  • washing liquid collector and transfer 15 is centred under said liquid receiving chamber 32 of the top gutter 30' and as in in the washing mode it is removed, under the outlet 83 of the pump pipe assembly 80 having the short pipe 15b to collect wash/cleaning liquid from the outlet 83 having the short pipe 15b in the upper end/ the inlet 151a of the rectangular pipe 151 of the drain tube 151 (see Fig. 1C and Fig.13 ).
  • the washing liquid coming from outlet 83 falls directly into wash liquid collector and transfer tray 15.
  • While the rectangular drain tube 151 is slightly inclined towards the cutting 158b of the panel 158 opposite to door 157, so that the cleaning liquid discharged from the outlet 83, under the influence of gravity, flows via the cavity 15c and pipe 15b of the wash liquid collecting and transfer drain 15, over the interior face of the lateral wall 151c of the long drain tube 151 (avoiding splashing of liquid in container 5) and towards the outlet 151b positioned above container 5 ( Fig. 1C ), so that the washing liquid flows unhindered back to container 5.
  • the positioning of the top gutter 30 or 30' inside the recirculation module 100 or 100' is made through a cutting 158b in panel 158 opposite to door 157 (in closed position), the back plate 148 of the gutter pushing against the upper part of the rectangular tube 151, and the positioning strip 46 of the elongated bottom plate 29 leaning against the inner face of panel 158 opposite to door 157 in closed position, while the hooks 34 are being supported by hook support 24 (the hook support 34 isn't shown in fig. 13 for ease of simplicity).
  • the command and control system of the second embodiment of the basting liquid recirculation module 100' is simplified in the absence of the pivoting recipient 10.
  • the basting liquid pumping circuit comprising a peristaltic pump 6 driven by an electric motor 3, a pipe assembly 80, including a hose 88 specific to peristaltic pump; the means for detecting the rupture of the hose of the peristaltic pump in the two variants 50, 50'; the mechanism 90 for inserting and removing the movable pipe 89 from the liquid recipient 5, and the drawer 68 of the liquid recipient 5 below which there is a heating plate 67, are common to both variants of the recirculation module 100, 100 '.
  • the recirculation module 100, 100' of a basting liquid and the vertical adapted rotisserie unit 200 can also be made in a monolithic construction, as well as that the recirculation module 100, 100 'of a basting liquid could be built on the right side of the unit 200; Obviously, in order to do this, the inclination of the collector 9 must be reversed, as well as other transpositions of left / right symmetry.
  • the baster could be secured on hinges, as a door on its hinges, being mounted on the back side of the grill, in this way support wheels are no longer needed as the baster is now supported on the hinges.
  • This construction is suitable when the weight of the recirculation module 100, 100' relative to the weight of the vertical rotisserie unit 200, is considerable lighter.
  • the drawer can be manually operated by means of handle 69 or by means of a motor engaging the slider arms 114 of the drawer 68 to open and close it by means of electronic command.
  • a linear actuator or other motor in that regard
  • the slider tube 49 of linear actuator is set as such to move with a velocity of 2cm/sec.
  • the drainpipe circuit consist of wash liquid collector and transfer tray 15 in the upper part of the baster, positioned just under the top gutter 30 and mechanically mounted against a reinforcing plate 94, a drain hose 18, and a short metal drainpipe 17 positioned above the container 5.
  • the drainpipe 17 consists in several sections following a broken line in space, with at least two bends, depending on the spatial configuration from the recirculation module 100 (taking into consideration the other constitutive elements), having its outlet 17a (located in the central part 100c of module 100) just above the container 5,
  • the drainpipe 16 is a metal pipe mechanically mounted to a support (here not shown) that is also mechanically mounted against a reinforced back panel 60c

Landscapes

  • Engineering & Computer Science (AREA)
  • Food Science & Technology (AREA)
  • Devices For Dispensing Beverages (AREA)
EP22162251.7A 2022-03-22 2022-03-22 Module de recirculation du liquide de badigeonnage pour une rotisserie verticale Pending EP4248810A1 (fr)

Priority Applications (1)

Application Number Priority Date Filing Date Title
EP22162251.7A EP4248810A1 (fr) 2022-03-22 2022-03-22 Module de recirculation du liquide de badigeonnage pour une rotisserie verticale

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
EP22162251.7A EP4248810A1 (fr) 2022-03-22 2022-03-22 Module de recirculation du liquide de badigeonnage pour une rotisserie verticale

Publications (1)

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EP4248810A1 true EP4248810A1 (fr) 2023-09-27

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Citations (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US7001627B2 (en) 2002-07-17 2006-02-21 Marson Louis A Vertical rotisserie basting oven
CN111248774A (zh) * 2020-02-21 2020-06-09 尤洛卡(广东)精准信息工程技术研究院有限公司 食品加工设备
EP3705003A1 (fr) * 2019-03-05 2020-09-09 Paul Vandamme Appareil de rotisserie vertical avec versement de liquide pour badigeonnement
US20200375391A1 (en) * 2019-06-03 2020-12-03 O-View Technology Co., Ltd. Automatic edible fluid injection device of food frying machines
US20210093122A1 (en) * 2019-10-01 2021-04-01 Marvin DuBose Basting and injection apparatus and method of use

Patent Citations (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US7001627B2 (en) 2002-07-17 2006-02-21 Marson Louis A Vertical rotisserie basting oven
EP3705003A1 (fr) * 2019-03-05 2020-09-09 Paul Vandamme Appareil de rotisserie vertical avec versement de liquide pour badigeonnement
US20200375391A1 (en) * 2019-06-03 2020-12-03 O-View Technology Co., Ltd. Automatic edible fluid injection device of food frying machines
US20210093122A1 (en) * 2019-10-01 2021-04-01 Marvin DuBose Basting and injection apparatus and method of use
CN111248774A (zh) * 2020-02-21 2020-06-09 尤洛卡(广东)精准信息工程技术研究院有限公司 食品加工设备

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